JP2006147136A - Magnetic recording head - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a magnetic recording head having a pole structure capable of reducing an antenna effect without adding a separate process to a head manufacturing process. <P>SOLUTION: The magnetic recording head 10 includes a return pole 14, a writing pole 11 spaced a predetermined distance from the return pole 14, an induction writing coil 16 forming a magnetic field on the writing pole 11, and a writing pole shield 17 formed on the same plane as the writing pole 11. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a magnetic recording head, and more particularly to a magnetic recording head having a pole structure that reduces the antenna effect.

  In order to improve the recording density in the field of magnetic information recording, research on a perpendicular magnetic recording system is in progress. The perpendicular magnetic recording method is a method of recording information on a recording medium by orienting the magnetization direction of the recording medium perpendicular to the recording surface and improving the recording density as compared with the existing horizontal magnetic recording method.

  In a head applied to a magnetic recording system, there is a possibility that wrong information is recorded on a recording medium due to the antenna effect of the head, or information already recorded is erased. The antenna effect is a phenomenon in which an external magnetic field flows into the head and an undesired external magnetic field concentrates on a specific part of the head, for example, the tip of the head. Such an external magnetic field is a stray field mainly generated from an actuator that provides a magnetic circuit and a VCM (Voice Coil Motor) that drives the actuator. In the perpendicular magnetic recording system in which the area of the recording chip of the head is small and reacts very sensitively to an external magnetic field, such an antenna effect becomes a particular problem.

  Patent Document 1 discloses an example of a head having a structure for reducing such an antenna effect. The head disclosed in Patent Document 1 includes a magnetic shield layer whose tip is close to the surface of a recording medium. This magnetic shield layer reduces the antenna effect by dispersing the external magnetic field flowing into the head and preventing the external magnetic field from concentrating on the recording pole and the return pole. In addition to this, conventional methods for reducing the antenna effect include a method of removing the return pole or separating the recording pole and the return pole.

  However, such a conventional method for reducing the antenna effect requires a step of forming a structure for reducing the antenna effect in the head manufacturing process. Therefore, the manufacturing process of the head becomes complicated, and the cost and time spent on the process of forming the structure that reduces the antenna effect increase.

In addition, such a method considers only the influence of the external magnetic field on the recording unit, and cannot simultaneously reduce the antenna effect generated from the reproducing unit.
Korean Patent Publication No. 10-2002-0041578

  The technical problem of the present invention is to provide a magnetic recording head having a pole structure capable of reducing the antenna effect without requiring a separate process in the head manufacturing process.

  Another technical problem of the present invention is to provide a magnetic recording head capable of simultaneously reducing the antenna effect of the recording unit and the reproducing unit.

  In order to achieve the technical problem, a magnetic recording head according to the present invention includes a return pole, a recording pole that is spaced apart from the return pole by a predetermined distance, an induction recording coil that forms a magnetic field in the recording pole, A recording pole shield formed on the same plane as the recording pole.

  The magnetic recording head is preferably a perpendicular magnetic recording head.

  The recording pole shield is preferably formed at a predetermined interval from the recording pole.

  The area of the end face of the recording pole shield is preferably larger than the area of the end face of the recording pole.

  The recording pole shield is preferably a magnetic material.

  The recording pole shield is preferably manufactured simultaneously with the recording pole.

  The recording pole shield is preferably made of the same material as the recording pole.

  In order to achieve the technical problem, a magnetic recording head according to the present invention includes a recording pole, a return pole that is spaced apart from the recording pole by a predetermined distance, an induction recording coil that forms a magnetic field in the recording pole, The return pole shield may be formed on the same plane as the return pole.

  It is preferable to further include a recording pole shield formed on the same plane as the recording pole.

  The magnetic recording head is preferably a perpendicular magnetic recording head.

  The return pole shield is preferably formed at a predetermined interval from the return pole.

  The area of the end face of the return pole shield is preferably larger than the area of the end face of the return pole.

  The return pole shield is preferably a magnetic material.

  The return pole shield is preferably manufactured simultaneously with the return pole.

  The return pole shield is preferably made of the same material as the return pole.

  In order to achieve the technical problem, a magnetic recording head according to the present invention includes a return pole, a recording pole positioned at a predetermined distance from the return pole, an induction recording coil that forms a magnetic field in the recording pole, A magnetic recording head comprising: a reproduction sensor positioned at a predetermined distance from the return pole; and a top shield and a bottom shield positioned at a predetermined distance above and below the reproduction sensor, respectively, The second shield may be formed on the same plane and / or the same plane as the bottom shield.

  Preferably, a second top shield is formed on the same plane as the top shield, and a second bottom shield is formed on the same plane as the bottom shield.

  The second shield is preferably formed at a predetermined interval from the top shield or the bottom shield.

  The area of the end face of the second shield is preferably larger than the area of the end face of the top shield or the bottom shield.

  The second shield is preferably a magnetic material.

  The second shield is preferably manufactured simultaneously with the top shield or the bottom shield.

  The second shield is preferably made of the same material as the top shield or the bottom shield.

  The magnetic recording head is preferably a perpendicular magnetic recording head.

  It is preferable to further include a return pole shield formed on the same plane as the return pole.

  It is preferable to further include a recording pole shield formed on the same plane as the recording pole.

  It is preferable to further include a return pole shield formed on the same plane as the return pole and a recording pole shield formed on the same plane as the recording pole.

  According to the magnetic recording head of the present invention, the antenna effect generated from the recording pole can be reduced by forming the recording pole shield on the same plane as the recording pole and dispersing the external magnetic field.

  Also, according to the magnetic recording head of the present invention, the return pole shield is formed on the same plane as the return pole, and the external magnetic field is dispersed, thereby reducing the antenna effect generated from the return pole.

  Further, according to the magnetic recording head of the present invention, the second top shield and / or the second bottom shield is formed on the same plane as the top shield and / or the bottom shield, and the external magnetic field is distributed, thereby The antenna effect generated from the shield and / or the bottom shield can be reduced.

  Further, according to the magnetic recording head of the present invention, the recording pole shield, the return pole shield, the second top shield, and / or the second bottom shield are the recording pole, return pole, and top shield, respectively, during the head manufacturing process. In addition, since the antenna is manufactured at the same time as the bottom shield, the antenna effect can be reduced at each pole without requiring a separate manufacturing process.

  In addition, according to the magnetic recording head of the present invention, both the recording pole shield and the second top shield and / or the second bottom shield are provided, not only from the recording pole but also from the top shield and / or the bottom shield. The generated antenna effect can be reduced at the same time.

  Hereinafter, a magnetic recording head according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Although this embodiment relates to a perpendicular magnetic recording head, the idea of the present invention can also be applied to a horizontal magnetic recording head. The same reference numerals in the following drawings indicate the same configuration.

  FIG. 1 is a perspective view showing a vertical section of a recording portion of a magnetic recording head according to the present invention. FIG. 2 is an enlarged view of a portion A displayed in FIG. 1, and FIG. 3 is a plan view schematically showing a recording pole and a recording pole shield of the magnetic recording head according to the present invention.

  As shown in FIGS. 1 to 3, a magnetic recording head 10 according to the present invention is provided at the tip of an actuator (not shown), and moves to a desired track position on a recording medium by the rotational movement of the actuator. Recording and playback operations.

  The magnetic recording head 10 includes a recording pole 11 and a return pole 14 for forming a leakage magnetic flux in a recording medium, and an induction recording coil 16 as current supply means. In FIG. 3, reference numeral 19 denotes an external magnetic field, and reference numeral 20 denotes an external magnetic field that is dispersed and passes through the recording pole shield 17. An end surface S1 of the recording pole 11 is a surface of the tip 12 that is parallel to the magnetic recording medium when information is recorded / reproduced on / from a magnetic recording medium (not shown).

  The return pole 14 is connected by the connecting portion 13 and is separated from the recording pole 11 by a predetermined distance. The recording pole 11 records information on an information recording medium (not shown) in which a leakage magnetic flux is formed through the tip 12 and a recording layer is formed on the soft magnetic film.

  The magnetic recording head 10 also includes a recording pole shield 17 formed on the same plane as the recording pole 11. The recording pole shield 17 disperses the external magnetic field and reduces the occurrence of an antenna effect on the recording pole 11. More specifically, when an external magnetic field transmitted from the outside of the hard disk drive or generated from a VCM or the like provided inside the hard disk drive is transmitted to the magnetic recording head 10, the external magnetic field is connected to the recording pole shield 17. Distributed to the recording pole 11. Accordingly, external magnetic concentration on the recording pole 11 is suppressed, and the antenna effect generated from the recording pole 11 is reduced. The end surface S2 of the recording pole shield 17 is a surface that is parallel to the recording surface of the magnetic recording medium when information is recorded on and reproduced from the magnetic recording medium.

  At this time, the recording pole shield 17 and the recording pole 11 are separated at a predetermined interval, and most of the external magnetic field bypasses the recording pole shield 17, and only a part of the magnetic field passes through the recording pole 11. Therefore, the strength of the external magnetic field at the recording pole 11 is further weakened, and the antenna effect of the recording pole 11 is further reduced.

  Here, the area of the end surface S2 of the recording pole shield 17 is preferably formed wider than the area of the end surface S1 of the recording pole 11. The recording pole shield 17 is preferably formed of a magnetic material. By forming in this way, the magnetic dispersion effect by the recording pole shield 17 is further increased, and the antenna effect of the recording pole 11 is further reduced.

  Thus, the recording pole shield 17 is preferably formed on the same plane as the recording pole 11 and made of the same material as the recording pole 11. Therefore, since the recording pole shield 17 can be manufactured simultaneously with the recording pole 11 during the manufacturing process of the recording pole 11, the antenna effect can be obtained without requiring another manufacturing process in the manufacturing process of the magnetic recording head 10. Can be reduced.

  On the other hand, according to another embodiment of the present invention, a return pole shield may be further provided in the same plane as the return pole 14. Similar to the recording pole shield 17, the return pole shield disperses the external magnetic field transmitted to the return pole 14 and reduces the antenna effect of the return pole 14.

  Here, the return pole shield is preferably separated from the return pole 14 by a predetermined distance. The area of the end surface S3 of the return pole shield is preferably larger than the area of the end surface S4 of the return pole 14. The return pole shield is preferably a magnetic material. It is also possible to manufacture the return pole shield at the same time as the return pole 14. The return pole shield can be made of the same material as the return pole 14.

  FIG. 4 is a perspective view showing a vertical cross section of a recording unit and a reproducing unit according to another embodiment of the magnetic recording head according to the present invention. FIG. 5 is a plan view schematically illustrating a top shield and a second top shield according to the embodiment presented in FIG. FIG. 5 shows the top shield 22 and the second top shield 26, but this applies equally to the bottom shield 24 and the second bottom shield 27.

  As shown in FIGS. 4 and 5, the magnetic recording head 10 ′ according to the present invention includes a return pole 14, a recording pole 11, an induction recording coil 16, a reproduction sensor 21, a top shield 22, and a bottom shield 24. And a return pole shield 25. The same components as those of the magnetic recording head 10 are denoted by the same reference numerals, and the description thereof is omitted.

  The recording pole 11 is formed to be separated from the return pole 14 by a predetermined distance, and the induction recording coil 16 induces the formation of a magnetic field in the recording pole 11. The sensor 21 is separated from the return pole 14 by a predetermined distance, and reads information stored in a recording medium (not shown). The top shield 22 and the bottom shield 24 are positioned above and below the reproduction sensor 21 by a predetermined distance. During the information reproduction operation of the reproduction sensor 21, the top shield 22 and the bottom shield 24 prevent the life sensor 21 from affecting other parts other than the part to be reproduced on the recording medium. Regeneration work is done.

  In this embodiment, a return pole shield 25 is further provided on the same plane as the return pole 14, a second top shield 26 is provided on the same plane as the top shield 22, and a second bottom shield 27 is provided on the same plane as the bottom shield 24. By forming the return pole shield 25 on the same plane as the return pole 14 and dispersing the external magnetic field, the antenna effect generated from the return pole 14 can be reduced. In addition, the structure provided with the return pole shield 25 and the 2nd top shield 26, the structure provided with the return pole shield 25 and the 2nd bottom shield 27, the structure provided with the 2nd top shield 26 and the 2nd bottom shield 27, a return The configuration may include any one of the pole shield 25, the second top shield 26, and the second bottom shield 27. Here, the recording pole shield 17 is preferably formed on the same plane as the recording pole 11. The end surface S3 of the return pole 14 is a surface parallel to the recording surface of the magnetic recording medium when information is recorded / reproduced on / from the magnetic recording medium (not shown). The end surface S4 of the return pole shield 25 is a surface that is parallel to the recording surface of the magnetic recording medium when information is recorded on and reproduced from the magnetic recording medium. The end surface S5 of the top shield 22 is a surface parallel to the recording surface of the magnetic recording medium when information is recorded / reproduced on / from the magnetic recording medium (not shown). The end surface S6 of the second top shield 26 is a surface parallel to the recording surface of the magnetic recording medium when information is recorded on and reproduced from the magnetic recording medium. The end surface S7 of the bottom shield 24 is a surface parallel to the recording surface of the magnetic recording medium when information is recorded / reproduced on / from the magnetic recording medium (not shown). The end surface S8 of the second bottom shield 27 is a surface parallel to the recording surface of the magnetic recording medium when information is recorded on and reproduced from the magnetic recording medium.

  Thus, the recording pole shield 17 disperses the external magnetic field and reduces the occurrence of the antenna effect on the recording pole 11. Similarly, the second top shield 26 and / or the second bottom shield 27 disperses the external magnetic field transmitted to the top shield 22 and the bottom shield 24, and the antenna effect is applied to the top shield 22 and the bottom shield 24. Reduce the occurrence of More specifically, if an external magnetic field transmitted from the outside of the hard disk drive or generated from a VCM or the like provided inside the hard disk drive is transmitted to the magnetic recording head 10, the external magnetic field is transmitted to the second top. The shield 26 and / or the second bottom shield 27 and the top shield 22 and / or the bottom shield 24 are distributed. Therefore, external magnetic concentration on the top shield 22 and / or the bottom shield 24 is suppressed, and the antenna effect generated from the top shield 22 and the bottom shield 24 is reduced.

  At this time, the second top shield 26 and / or the second bottom shield 27 and the top shield 22 and / or the bottom shield 24 are separated at a predetermined interval, and most of the external magnetic field is the second Only a small amount of the magnetic field passes through the top shield 22 and / or the bottom shield 24 via the top shield 26 and / or the second bottom shield 27. Accordingly, the strength of the external magnetic field at the top shield 22 and / or the bottom shield 24 is further weakened, and the antenna effect is further reduced. Reference numeral 28 in FIG. 5 indicates an external magnetic field, and reference numeral 29 indicates a distributed external magnetic field.

  Here, the area of the end surface S6 of the second top shield 26 and the area of the end surface S8 of the second bottom shield 27 are formed wider than the areas of the end surface S5 of the top shield 22 and the end surface S7 of the bottom shield 24, respectively. It is preferable. The second top shield 26 and the second bottom shield 27 are preferably magnetic materials. As described above, the second top shield 26 and the second bottom shield 27 are formed on the same plane as the top shield 22 and the bottom shield 24. The second top shield 26 and the second bottom shield 27 are preferably made of the same material as the top shield 22 and the bottom shield 24. Accordingly, since the second top shield 26 and the second bottom shield 27 can be manufactured simultaneously with the top shield 22 and the bottom shield 24 during the manufacturing process of the top shield 22 and the bottom shield 24, the magnetic recording head 10 is manufactured. The antenna effect can be reduced without requiring a separate manufacturing process. By forming in this way, the magnetic dispersion effect by the second top shield 26 and the second bottom shield 27 can be further increased, and the antenna effect of the top shield 22 and the bottom shield 24 can be further reduced.

FIG. 6 is a diagram simulating the magnetic field distribution due to the external magnetic field (40 Gauss) of the recording pole of the conventional magnetic recording head shown in FIG. FIG. 7 is a diagram simulating the magnetic field distribution due to the external magnetic field of the recording pole of the magnetic recording head shown in FIG.
Here, FIG. 9 is a perspective view showing a vertical section of the recording portion of the conventional magnetic recording head.
A conventional magnetic recording head 100 shown in FIG. 9 includes a recording pole 11, a connecting portion 13, a return pole 14, and a dielectric recording coil 16. Since the magnetic recording head 100 has the same configuration as that of the magnetic recording head 10 except that the recording pole shield 17 is not provided, detailed description thereof is omitted.

  As shown in FIG. 6, a magnetic field by external magnetism is formed around a recording pole of a general magnetic recording head, and the magnetic flux is greatly amplified. The magnetic flux amplified in this way affects the recording medium and erases the already recorded pattern or records an undesired pattern.

  As shown in FIG. 7, a magnetic field due to external magnetism is hardly formed around the recording pole of the magnetic recording head according to the present invention, and a weak magnetic field is formed around the recording pole shield. As described above, the external magnetic field is distributed to the recording pole and the recording pole shield so that the recording pole is hardly affected and the recording pole shield is hardly affected. Therefore, it can be seen that the antenna effect of the recording pole is significantly reduced.

  FIG. 8 is a graph comparing the magnetic field emitted from the magnetic recording head according to the present invention and the prior art when an external magnetic field of 40 Gauss is applied, in the direction along the track by the electromagnetic field analysis technique. Here, No Side displayed in the graph means a graph for a magnetic recording head according to the prior art, and Side means a graph for a magnetic recording head according to the present invention. The horizontal axis of the graph indicates the distance measured in the direction along the track of the opposing magnetic disk with the tip of the magnetic recording head as a reference, and the vertical axis of the graph indicates the magnetic field at the head portion corresponding to each distance. The strength of is shown. Accordingly, the 0 μm to 3 μm portion in FIG. 8 is a portion where the return pole is formed, and the 5.5 μm to 6.5 μm portion is the portion where the recording pole is formed.

  As shown in FIG. 8, it can be seen that the magnetic field at the return pole and the recording pole of the magnetic recording head according to the present invention is smaller than the magnetic field at the return pole and the recording pole of the conventional magnetic recording head. That is, the magnetic recording head according to the present invention includes a recording pole shield and a return pole shield formed on the same plane as the recording pole and the return pole, respectively, and the external magnetic field is dispersed as compared with the prior art, It can be seen that the antenna effect generated from each pole is reduced.

  6 to 8 show experimental results for the recording pole, but the same result can be obtained for the return pole and the reproduction pole.

  Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely an example, and it is understood that various modifications and equivalent other embodiments may be made by those skilled in the art. You will understand the point. Therefore, the true technical scope of the present invention is determined by the claims.

It is a perspective view which shows the perpendicular | vertical cross section about the recording part of the magnetic recording head based on this invention. FIG. 2 is an enlarged view of a portion A displayed in FIG. 1. 2 is a plan view schematically showing a recording pole and a recording pole shield of the magnetic recording head according to the present invention. FIG. It is a perspective view which shows the vertical cross section about the recording part and reproducing | regenerating part by other embodiment of the magnetic recording head based on this invention. FIG. 5 is a plan view schematically illustrating a top shield and a second top shield according to the embodiment presented in FIG. 4. 6 is a diagram simulating a magnetic field distribution by an external magnetic field (40 Gauss) of a recording pole of a general magnetic recording head. 3 is a diagram simulating a magnetic field distribution by an external magnetic field of a recording pole of a magnetic recording head according to the present invention. It is the graph which mutually compared the magnetic field emitted from the magnetic recording head by this invention and the prior art at the time of the 40 Gauss external magnetic field application by the electromagnetic field analysis technique in the direction along a track | truck. It is a perspective view which shows the vertical cross section about the recording part of the conventional magnetic recording head.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Magnetic recording head 11 Recording pole 12 Front-end | tip part 13 Connection part 14 Return pole 16 Induction recording coil 17 Recording pole shield 19, 20 External magnetic field

Claims (26)

A return pole,
A recording pole positioned at a predetermined distance from the return pole;
An induction recording coil for forming a magnetic field on the recording pole;
A recording pole shield formed on the same plane as the recording pole;
A magnetic recording head comprising:   The magnetic recording head according to claim 1, wherein the magnetic recording head is a perpendicular magnetic recording head.   2. The magnetic recording head according to claim 1, wherein the recording pole shield is formed at a predetermined interval from the recording pole.   2. The magnetic recording head according to claim 1, wherein the area of the end face of the recording pole shield is larger than the area of the end face of the recording pole.   The magnetic recording head according to claim 1, wherein the recording pole shield is a magnetic material.   The magnetic recording head according to claim 1, wherein the recording pole shield is manufactured simultaneously with the recording pole.   The magnetic recording head according to claim 1, wherein the recording pole shield is made of the same material as the recording pole. A magnetic recording head comprising: a recording pole; a return pole positioned at a predetermined distance from the recording pole; and an induction recording coil that forms a magnetic field on the recording pole;
A magnetic recording head, wherein a return pole shield is formed on the same plane as the return pole.   9. The magnetic recording head according to claim 8, further comprising a recording pole shield formed on the same plane as the recording pole.   The magnetic recording head according to claim 8, wherein the magnetic recording head is a perpendicular magnetic recording head.   9. The magnetic recording head according to claim 8, wherein the return pole shield is formed at a predetermined interval from the return pole.   9. The magnetic recording head according to claim 8, wherein the area of the end face of the return pole shield is larger than the area of the end face of the return pole.   The magnetic recording head according to claim 8, wherein the return pole shield is a magnetic material.   The magnetic recording head according to claim 8, wherein the return pole shield is manufactured simultaneously with the return pole.   The magnetic recording head according to claim 8, wherein the return pole shield is made of the same material as the return pole. A return pole; a recording pole positioned at a predetermined distance from the return pole; an induction recording coil for forming a magnetic field at the recording pole; a reproduction sensor positioned at a predetermined distance from the return pole; and the reproduction sensor A top shield and a bottom shield that are respectively spaced apart from each other by a predetermined distance above and below the magnetic recording head,
A magnetic recording head, wherein a second shield is formed on the same plane as the top shield and / or on the same plane as the bottom shield.   The magnetic recording head according to claim 16, wherein a second top shield is formed on the same plane as the top shield, and a second bottom shield is formed on the same plane as the bottom shield.   The magnetic recording head according to claim 16, wherein the second shield is formed at a predetermined interval from the top shield or the bottom shield.   The magnetic recording head according to claim 16, wherein an area of an end face of the second shield is larger than an area of an end face of the top shield or the bottom shield.   The magnetic recording head according to claim 16, wherein the second shield is a magnetic material.   The magnetic recording head according to claim 16, wherein the second shield is manufactured simultaneously with the top shield or the bottom shield.   The magnetic recording head according to claim 16, wherein the second shield is made of the same material as the top shield or the bottom shield.   The magnetic recording head according to claim 16, wherein the magnetic recording head is a perpendicular magnetic recording head.   The magnetic recording head according to claim 16, further comprising a return pole shield formed on the same plane as the return pole.   The magnetic recording head according to claim 16, further comprising a recording pole shield formed on the same plane as the recording pole.   17. The magnetic recording head according to claim 16, further comprising a return pole shield formed on the same plane as the return pole, and a recording pole shield formed on the same plane as the recording pole.